Flight Stability and Automatic Control
Nelson, Robert C.
Flight Stability and Automatic Control - 2nd - New Delhi McGraw Hill 2014 - 441 p.:
Chapter 1. Introduction
Chapter 2. Static Stability and Control
Chapter 3. Aircraft Equations of Motion
Chapter 4. Longitudinal Motion (Stick Fixed)
Chapter 5. Lateral Motion (Stick Fixed)
Chapter 6. Aircraft Response to Control or Atmospheric Inputs
Chapter 7. Automatic Control Theory-The Classical Approach
Chapter 8. Application of Classical Control Theory to Aircraft Autopilot Design
Chapter 9. Modern Control Theory
Chapter 10. Application of Modern Control Theory to Aircraft Autopilot Design
Appendices
A: Atmospheric Tables (ICAO Standard Atmosphere)
B: Geometric, Mass, and Aerodynamic Characteristics of Selected Airplanes
C: Mathematical Review of Laplace Transforms and Matrix Algebra
D: Review of Control System Analysis Techniques
9780070661103
Other branches of engineering
629.13236 NEL-F
Flight Stability and Automatic Control - 2nd - New Delhi McGraw Hill 2014 - 441 p.:
Chapter 1. Introduction
Chapter 2. Static Stability and Control
Chapter 3. Aircraft Equations of Motion
Chapter 4. Longitudinal Motion (Stick Fixed)
Chapter 5. Lateral Motion (Stick Fixed)
Chapter 6. Aircraft Response to Control or Atmospheric Inputs
Chapter 7. Automatic Control Theory-The Classical Approach
Chapter 8. Application of Classical Control Theory to Aircraft Autopilot Design
Chapter 9. Modern Control Theory
Chapter 10. Application of Modern Control Theory to Aircraft Autopilot Design
Appendices
A: Atmospheric Tables (ICAO Standard Atmosphere)
B: Geometric, Mass, and Aerodynamic Characteristics of Selected Airplanes
C: Mathematical Review of Laplace Transforms and Matrix Algebra
D: Review of Control System Analysis Techniques
9780070661103
Other branches of engineering
629.13236 NEL-F